Performance Tuning for Power Electronic Interfaces Under VSG Control

Zhang, Weichao; Yan, Xiangwu; Huang, Hsiao-Yun

doi:10.3390/app10030953

Cited by 9 publications

(4 citation statements)

References 37 publications

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“…It is noted that the fundamental discrepancy between RESs and SGs is the capability of providing frequency responses and the dispatchability in the domain of frequency stability. Therefore, the concept and control strategies of virtual synchronous generator (VSG) are prompted to incorporate asynchronous RESs into the frame of active power and frequency control [8]- [13]. For practical energy sources, the emulation of IR and PFR can be realized by the "hidden inertia" for wind turbines, storage, and deloading strategy [14].…”

Section: Nomenclaturementioning

confidence: 99%

Automatic Generation Control with Virtual Synchronous Renewables

Zhang

Sheng

Duan

et al. 2023

Journal of Modern Power Systems and Clean Energy

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Section: Nomenclaturementioning

confidence: 99%

Automatic Generation Control with Virtual Synchronous Renewables

Zhang

Sheng

Duan

et al. 2023

Journal of Modern Power Systems and Clean Energy

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“…Two instantaneous power components (p, q) are defined as functions of output voltages (v od , v oq ) and currents (i od , i oq ) of VSG units in ( 6) and (7). Two low-pass filters with the cut-off frequency of ω c are applied in series with power calculator [18].…”

Section: B Power Calculatormentioning

confidence: 99%

“…The enhanced power decoupling mechanism in [6] applies virtual steady-state synchronous impedance and current compensation in the VSG controller to improve the dynamic performance and the stability of the system. The VSG parameters effects on performance indices have been analyzed in [7] and an algorithm has been proposed to tune these parameters to achieve the preferred performance indices.…”

Section: Introductionmentioning

confidence: 99%

Simultaneous Optimization of Virtual Synchronous Generators (VSG) Parameters in Islanded Microgrids Supplying Induction Motors

et al. 2021

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The growing importance of Microgrid in future power systems highlights critical challenges like microgrid control and stability. An islanded microgrid including distributed generations (DG), energy storage systems (ESS), and different types of loads (static or dynamic) is prone to instability. The whole microgrid system must be analyzed and designed to operate within stable regions. This study models an inverter-interfaced microgrid which supplies different types of loads such as static loads and symmetrical induction machines (SIM) by virtual synchronous generators (VSG). Afterwards, a generalized small-signal stability analysis framework is proposed for an islanded microgrid. This model is applied for stability analysis of an arbitrary islanded microgrid including several VSGs, lines, static loads, and SIM loads. Subsequently, permissible intervals for VSG parameters are drawn according to the microgrid smallsignal stability analysis. These permissible intervals are compared for static and SIM load. Finally, a novel optimization platform is introduced which utilizes the particle swarm optimization (PSO) algorithm to draw optimal values for virtual impedances (VI), virtual inertia (Jv), virtual damping (D), and current statefeedback factor (F). The proposed optimization platform enhances the microgrid stability, minimizes voltage drops on the buses, the reactive power mismatches, and the frequency Nadir, simultaneously.INDEX TERMS Current state-feedback factor (F), microgrid, symmetrical induction motors (SIM), smallsignal stability, virtual synchronous generator (VSG), virtual impedance (VI).

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“…Embora a geração eólica apresente ganhos energéticos complementares, o mesmo não se verifica para a geração de potência em tempo real. Além da variabilidade do vento e da difícil previsibilidade, sistemas com alta penetração de geração eólica possuem baixa inércia, uma vez que, geralmente, as turbinas eólicas são conectadas à rede através de conversores estáticos de potência, que desacoplam a velocidade de rotação dos geradores eólicos da frequência da rede (ZHANG et al, 2020). Ou seja, os geradores eólicos não são sensíveis às variações de carga do sistema e não fornecem resposta inercial.…”

Section: Introductionunclassified

Controle inercial e de oscilações para sistemas com alta penetração de geração eólica

Schreider da Silva,

José de Oliveira,

Campos dos Santos Souza

2022

Principia

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Este trabalho apresenta um método para solucionar o problema relacionado à baixa inércia devido à alta penetração da geração eólica no sistema elétrico de potência. O objetivo é incluir a geração eólica no Controle de Carga-fequência através da técnica do gerador síncrono virtual. Para tanto, o controle primário de frequência associado à operação de sobrevelocidade dos aerogeradores é implementado considerando a troca de energia com a usina hidrelétrica. Os resultados obtidos mostram que esta técnica é eficaz para aumentar a inércia do sistema reduzindo as variações de frequência, a resposta inversa das turbinas hidráulicas e as oscilações nas linhas de intercâmbio.

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Performance Tuning for Power Electronic Interfaces Under VSG Control

Cited by 9 publications

References 37 publications

Automatic Generation Control with Virtual Synchronous Renewables

Automatic Generation Control with Virtual Synchronous Renewables

Simultaneous Optimization of Virtual Synchronous Generators (VSG) Parameters in Islanded Microgrids Supplying Induction Motors

Controle inercial e de oscilações para sistemas com alta penetração de geração eólica

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